Course Content
Unit 1: Human Cells
The key areas covered are:  division and differentiation in human cells  structure and replication of DNA  gene expression  mutations  human genomics  metabolic pathways  cellular respiration  energy systems in muscle cells
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1.1 Division and differentiation in human cells
Quiz: 1.1 Division and differentiation in human cells
01:00:00
1.2 Structure and replication of DNA
Quiz: 1.2 Structure and replication of DNA
01:00:00
1.3 Gene Expression
Quiz: 1.3 Gene Expression
01:00:00
1.4 Mutations
Quiz: 1.4 Mutations
01:00:00
1.5 Human Genomics
Quiz: 1.5 Human Genomics
01:00:00
1.6 Metabolic Pathways
Quiz: 1.6 Metabolic Pathways
01:00:00
1.7 Cellular Respiration
Quiz: 1.7 Cellular Respiration
01:00:00
1.8 Energy Systems in Muscle Cells
Quiz: 1.8 Energy Systems in Muscle Cells
01:00:00
End of Topic Test for Unit 1
02:00:00
Unit 2: Physiology and Health
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2.1 Gamete production and fertilisation
Quiz: 2.1 Gamete production and fertilisation
01:00:00
2.2 Hormonal control of reproduction
Quiz: 2.2 Hormonal control of reproduction
01:00:00
2.3 The biology of controlling fertility
Quiz: 2.3 The biology of controlling fertility
01:00:00
2.4 Ante- and postnatal screening
Quiz: 2.4 Ante and Postnatal Screening
01:00:00
2.5 The structure and function of arteries, capillaries and veins
Quiz: 2.5 The structure and function of arteries, capillaries and veins
01:00:00
2.6 The structure and function of the heart
Quiz: 2.6 The structure and function of the heart
01:00:00
2.7 Pathology of cardio vascular disease (CVD)
Quiz: 2.7 Pathology of cardio vascular disease (CVD)
01:00:00
2.8 Blood glucose levels and obesity
Quiz: 2.8 Blood glucose levels and obesity
01:00:00
End of Unit 2 Test
01:30:00
Unit 3: Neurobiology and Immunology
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3.1 Divisions of the nervous system and neural pathways
3.2 The cerebral cortex
3.3 Memory
3.4 The cells of the nervous system and neurotransmitters at synapses
3.5 Non-specific body defences
3.6 Specific cellular defences against pathogens
3.7 Immunisation
3.8 Clinical trials of vaccines and drugs
Experiment Design, Calculations, and Skills
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Experimental Design
Quiz: Experimental Design
01:00:00
Extended Response Questions
The Assignment
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Understanding Standards
The Exam
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Past Papers
Marking Instructions
Higher Human Biology

Glycolysis

  • Glycolysis is the breakdown of glucose to pyruvate in the cytoplasm.
  • ATP is required for the phosphorylation of glucose and intermediates during the energy investment phase of glycolysis.
  • This leads to the generation of more ATP during the energy pay-off stage and results in a net gain of ATP.
  • In aerobic conditions pyruvate is broken down to an acetyl group that combines with coenzyme A forming acetyl coenzyme A.

 

Citric Acid Cycle

  • In the citric acid cycle the acetyl group from acetyl coenzyme A combines with oxaloacetate to form citrate.
  • During a series of enzyme controlled steps, citrate is gradually converted back into oxaloacetate which results in the generation of ATP and release of carbon dioxide.
  • The citric acid cycle occurs in the matrix of the mitochondria.
  • Dehydrogenase enzymes remove hydrogen ions and electrons and pass them to the coenzyme NAD, forming NADH.
  • This occurs in both glycolysis and the citric acid cycle.
  • The hydrogen ions and electrons from NADH are passed to the electron transport chain on the inner mitochondrial membrane.

 

The Electron Transport Chain and ATP synthesis

  • The electron transport chain is a series of carrier proteins attached to the inner mitochondrial membrane.

ATP synthesis

  • Electrons are passed along the electron transport chain releasing energy.
  • This energy allows hydrogen ions to be pumped across the inner mitochondrial membrane.
  • The flow of these ions back through the membrane protein ATP synthase results in the production of ATP.
  • Finally, hydrogen ions and electrons combine with oxygen to form water.

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